// The contents of this file are in the public domain. See LICENSE_FOR_EXAMPLE_PROGRAMS.txt /* This is an example showing how to use the type_safe_union and pipe object from from the dlib C++ Library to send messages between threads. In this example we will create a class with a single thread in it. This thread will receive messages from a pipe object and simply print them to the screen. The interesting thing about this example is that it shows how to use a pipe and type_safe_union to create a message channel between threads that can send many different types of objects in a type safe manner. Program output: got a float: 4.567 got a string: string message got an int: 7 got a string: yet another string message */ #include "dlib/threads.h" #include "dlib/pipe.h" #include "dlib/type_safe_union.h" #include using namespace dlib; using namespace std; // ---------------------------------------------------------------------------------------- typedef type_safe_union tsu_type; /* This is a typedef for the type_safe_union we will be using in this example. This type_safe_union object is a type-safe analogue of a union declared as follows: union our_union_type { int a; float b; std::string c; }; Note that the above union isn't actually valid C++ code because it contains a non-POD type. That is, you can't put a std::string or any non-trivial C++ class in a union. The type_safe_union, however, enables you to store non-POD types such as the std::string. */ // ---------------------------------------------------------------------------------------- class pipe_example : private threaded_object { public: pipe_example( ) : message_pipe(4) // This 4 here is the size of our message_pipe. The significance is that // if you try to enqueue more than 4 messages onto the pipe then enqueue() will // block until there is room. { // start the thread start(); } ~pipe_example ( ) { // wait for all the messages to be processed message_pipe.wait_until_empty(); // Now disable the message_pipe. Doing this will cause all calls to // message_pipe.dequeue() to return false so our thread will terminate message_pipe.disable(); // now block until our thread has terminated wait(); } // Here we declare our pipe object. It will contain our messages. dlib::pipe message_pipe; private: // When we call apply_to_contents() below these are the // functions which get called. void operator() (int val) { cout << "got an int: " << val << endl; } void operator() (float val) { cout << "got a float: " << val << endl; } void operator() (std::string val) { cout << "got a string: " << val << endl; } void thread () { tsu_type msg; // Here we loop on messages from the message_pipe. while (message_pipe.dequeue(msg)) { // Here we call the apply_to_contents() function on our type_safe_union. // It takes a function object and applies that function object // to the contents of the union. In our case we have setup // the pipe_example class as our function object and so below we // tell the msg object to take whatever it contains and // call (*this)(contained_object); So what happens here is // one of the three above functions gets called with the message // we just got. msg.apply_to_contents(*this); } } // Finally, note that since we declared the operator() member functions // private we need to declare the type_safe_union as a friend of this // class so that it will be able to call them. friend class type_safe_union; }; // ---------------------------------------------------------------------------------------- int main() { pipe_example pe; // Make one of our type_safe_union objects tsu_type msg; // Treat our msg as a float and assign it 4.567 msg.get() = 4.567f; // Now put the message into the pipe pe.message_pipe.enqueue(msg); // Put a string into the pipe msg.get() = "string message"; pe.message_pipe.enqueue(msg); // And now an int msg.get() = 7; pe.message_pipe.enqueue(msg); // And another string msg.get() = "yet another string message"; pe.message_pipe.enqueue(msg); // the main function won't really terminate here. It will call the destructor for pe // which will block until all the messages have been processed. } // ----------------------------------------------------------------------------------------